电催化剂
计时安培法
循环伏安法
甲醇
电化学
碱性燃料电池
材料科学
化学
核化学
硼氢化
无机化学
化学工程
催化作用
电解质
电极
有机化学
物理化学
工程类
作者
Cristiane Angélica Ottoni,Carlos Eduardo Domingues Ramos,Sirlane Gomes da Silva,Estevam V. Spinacé,R.F.B. De Souza,Almir Oliveira Neto
标识
DOI:10.1002/elan.201600090
摘要
Abstract A physical mixture composed by carbon Vulcan XC 72 and indium tin oxide (ITO) with different ratios (85 : 15; 50 : 50; 85 : 15) was used as support for platinum nanoparticles synthesis by borohydride reduction method. The characterization of this electrocatalyst was performed by transmission electron microscopy (TEM), X‐ray diffraction (XRD), electrochemical techniques cyclic voltammetry (CV), chronoamperometry and performance test on direct alkaline glycerol/methanol fuel cell (DGFC/DMFC). According to TEM micrographs, Pt/C‐ITO nanoparticles analysis revealed the presence of large agglomerations of particles. Moreover, it was possible to observe Pt deposition on ITO and also in the carbon surface. The electrochemical studies showed that Pt/C‐ITO (85 : 15) had superior performance for glycerol electro‐oxidation, whereas Pt/C‐ITO (15 : 85) was the most promising in the methanol oxidation. A comparative study using direct alkaline fuel cells revealed Pt‐C‐ITO (15 : 85) electrocatalyst to be the best material for glycerol and methanol oxidation, specifically when being at open circuit potential about 0.95 V, maximum power density of 16 mW cm −2 for glycerol and circuit potential 0.95 V, and maximum power density of approximately 20 mW cm −2 for methanol.
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